Exposure to hypertonic solutions during pregnancy induces autism-like behaviors via the NFAT-5 pathway in offspring in a rat model

• Published in: Physiology & behavior Vol. 240; p. 113545
• Main Authors: Senkal, Evrim, Bagcioglu, Erman, Eryigit, Umut, Erbas, Oytun, Solmaz, Volkan
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 15.10.2021
• Subjects: Autism; Hyperosmolar state; NFAT5 pathway; Pregnant rat model; Pregnant rat model; Autism; NFAT5 pathway; Hyperosmolar state
• ISSN: 0031-9384; 1873-507X
• DOI: 10.1016/j.physbeh.2021.113545

•There is the strong relationship between autism and immune-mediated events in autism.•High salt may be a potential environmental risk factor for neuroinflammation. NFAT5 pathway may be a key factor in developing neuroinflammation by hyperosmotic solution.•Exposure of pregnant rats to a hyperosmotic solution (HS) resulted in autism-like behaviors in their offspring. to investigate the effects of hyperosmolar state (HS) on immune response and inflammation via the NFAT5 pathway and examine whether immune-mediated conditions trigger autism-like behavior in offspring. a pregnant rat model was performed by administering hyperosmotic solutions. Pregnant rats were divided into 2 main groups; control (group I) and hyperosmolar groups (group II). Control group rats were given % 0.25 NaCI (tap water) (n = 6), the Hyperosmolar (HO) group was further subdivided into 3 groups as; Group II a rats which were given % 3 hypertonic NaCl (n = 6), Group II b rats were given mineral water (% 3 NaHCO3+magnesium+calcium content) (n = 6), and Group II c rats were given Ayran (% 0.8 NaCl content) (n = 6). Their offspring were examined for behaviors, biochemical and histological abnormality. in offspring, TNF- α, IL-17, NFAT-5, and NGF levels in the brain were significantly higher in hyperosmotic solution groups than in control rats. Exposure of pregnant rats to hyperosmotic solution resulted in autism-like behaviors in their offspring. Through immunohistochemical methods, we found that CA1 and CA2 of the hippocampus indicated decreased number of neurons in hyperosmotic solution groups compared with the control group. our findings once again emphasized that the immune-mediated conditions involved in the pathophysiology of autism. NFAT5 pathway may be a key factor in the development of neuroinflammation by hyperosmotic solutions. [Display omitted]